/* cuda_rec_cut.cu */

/*
 * Copyright (C) 2008-2020 ABINIT Group (MMancini)
 *
 * This file is part of the ABINIT software package. For license information,
 * please see the COPYING file in the top-level directory of the ABINIT source
 * distribution.
 *
 */

/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
/*~~~~~~~~~~~~~~~~~~~~~~~~ INTERFACE WITH FORTRAN ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
#include <stdlib.h>
#include <unistd.h>
#include "cuda_header.h"


void 
recursion_cut_bth(
		  const int , const int , const int , const int ,           
		  const int , int* , const cureal ,const cureal ,
		  const cureal , const cureal , const int3* ,          
		  const int3* ,const int* , int* ,            
		  const cureal* ,const cureal* ,        
		  cureal* ,cureal* );   

void 
recursion_cut_no_bth(
		     const int , const int , const int , const int ,           
		     const int , int* , const cureal ,const cureal ,
		     const cureal , const cureal , const int3* ,          
		     const int3* ,const int* , int* ,            
		     const cureal* ,const cureal* ,        
		     cureal* ,cureal* );   
		 

extern "C"
void cuda_rec_cal_cut_(const int* trotter, 
		       const int* gratio,
		       const int* npt,
		       const int* nrec,              //- Max number of recursion
		       const int* height_max,        //- Max number of points at the same time (depends on GPU)
		       int* max_rec,                 //- Out-max recursion to have required precision
		       const cureal* beta,
		       const cureal* fermie,
		       const cureal* tolrec,         //- Tollerance of recursion
		       const cureal* inf_vol,        //- Infinitesimal volume
		       const int3* pt0,              //- Coord of initial point
		       const int3* pt1,              //- Coord of final point
		       const int* ngfft,             //- Linear sizes of the grid
		       int* ngfftrec,                //- Linear sizes of the grid
		       const cureal* T_p,            //- The green kernel
		       const cureal* pot,            //- Potential
		       cureal* an,cureal* bn2)       //- Rec coefficients an and bn2
{
  printf("\n-------cudarec cut------ \n"); 
/*    printf("pt0 %d %d %d \n",pt0->x,pt0->y,pt0->z); */
/*    printf("pt1 %d %d %d \n",pt1->x,pt1->y,pt1->z); */
/*    printf("ngfftrec %d %d \n",ngfftrec[0],ngfftrec[2]); */
/*    printf("nrec %d \n",*nrec); */
/*    printf("size cureal %d \n",int(sizeof(cureal))); */
/*    printf("tolrec %e \n",*tolrec); */
/*    printf("maxpt %d \n",*height_max); */
  if((ngfftrec[1]*ngfftrec[2]*ngfftrec[3])%16==0){
     
    recursion_cut_bth(*trotter,*gratio,*npt,*nrec,
		      *height_max,max_rec,*beta,*fermie,
		      *tolrec,*inf_vol,pt0,pt1,ngfft,
		      ngfftrec,T_p,pot,an,bn2);
  }
  else{
     
    recursion_cut_no_bth(*trotter,*gratio,*npt,*nrec,
			 *height_max,max_rec,*beta,*fermie,
			 *tolrec,*inf_vol,pt0,pt1,ngfft,
			 ngfftrec,T_p,pot,an,bn2);
       
  }
  return;
}
